Train2Wind, or How Large is an Infinite Wind Farm?
Publikation: Konferencebidrag › Poster › Forskning › fagfællebedømt
Standard
Train2Wind, or How Large is an Infinite Wind Farm? / Geibel, Gregor; Göçmen, Tuhfe; Mann, Jakob; Sempreviva, Anna Maria; Lund, Haakon; Reuder, Joachim; Bange, Jens; Porte-Agel, F.
2019. 1 Poster session præsenteret ved WindEurope Offshore 2019: Our energy, our future, Copenhagen, Danmark.Publikation: Konferencebidrag › Poster › Forskning › fagfællebedømt
Harvard
APA
Vancouver
Author
Bibtex
}
RIS
TY - CONF
T1 - Train2Wind, or How Large is an Infinite Wind Farm?
AU - Geibel, Gregor
AU - Göçmen, Tuhfe
AU - Mann, Jakob
AU - Sempreviva, Anna Maria
AU - Lund, Haakon
AU - Reuder, Joachim
AU - Bange, Jens
AU - Porte-Agel, F.
PY - 2019
Y1 - 2019
N2 - TRAIN2WIND is a PhD TRAINing school analysing enTRAINment in offshore WIND farms with computer models and experiments. By its very nature, a wind turbine extracts energy from the wind, which is replenished from the wind field on the sides and above due to the ambient turbulence. However, offshore the turbulence is lower, and wind farms are typically larger than onshore, therefore the wind can only be replenished from above in a process called entrainment. TRAIN2WIND will investigate the entrainment process using advanced high-resolution computer modelling and wind tunnel models together with measurements of the wind field above, in and downstream of large wind farms, using lidars, radars, satellites and Unmanned Aerial Systems. Some of the largest operators of offshore wind farms will provide access to the data and the wind farms in order to investigate whether there is a limit to offshore wind power installation density coming from the refreshment of momentum in very large wind farms or clusters. For them, and for the government agencies currently preparing the Marine Spatial Plan for the European waters, updated knowledge of entrainment and the associated potential limits to wind power extraction offshore is paramount to avoid mis-allocation of tens of billions of euros when planning offshore wind farms too dense or too close. Besides the natural science package, one humanities PhD student at the University of Copenhagen will investigate the collaboration between the researchers from a social science and collaboration tools perspective.
AB - TRAIN2WIND is a PhD TRAINing school analysing enTRAINment in offshore WIND farms with computer models and experiments. By its very nature, a wind turbine extracts energy from the wind, which is replenished from the wind field on the sides and above due to the ambient turbulence. However, offshore the turbulence is lower, and wind farms are typically larger than onshore, therefore the wind can only be replenished from above in a process called entrainment. TRAIN2WIND will investigate the entrainment process using advanced high-resolution computer modelling and wind tunnel models together with measurements of the wind field above, in and downstream of large wind farms, using lidars, radars, satellites and Unmanned Aerial Systems. Some of the largest operators of offshore wind farms will provide access to the data and the wind farms in order to investigate whether there is a limit to offshore wind power installation density coming from the refreshment of momentum in very large wind farms or clusters. For them, and for the government agencies currently preparing the Marine Spatial Plan for the European waters, updated knowledge of entrainment and the associated potential limits to wind power extraction offshore is paramount to avoid mis-allocation of tens of billions of euros when planning offshore wind farms too dense or too close. Besides the natural science package, one humanities PhD student at the University of Copenhagen will investigate the collaboration between the researchers from a social science and collaboration tools perspective.
M3 - Poster
SP - 1
Y2 - 26 November 2019 through 28 November 2019
ER -
ID: 233590767